XP Power recommends a PCB layout with a large copper area connected to the module's thermal pad to dissipate heat efficiently. A minimum of 1 oz copper thickness is recommended, and the copper area should be at least 1 inch x 1 inch in size.
Yes, the IV0509SA is designed to withstand high-vibration environments. However, it's essential to ensure that the module is properly secured to the PCB and that the PCB is rigid enough to prevent flexing or resonance that could affect the module's performance.
The maximum capacitance on the output of the IV0509SA is 2200uF. Exceeding this value may affect the module's stability and performance. It's recommended to consult with XP Power's application engineers for specific guidance on output capacitance selection.
Yes, the IV0509SA can be used in a redundant configuration to achieve high reliability and availability. However, it's essential to ensure that the modules are properly synchronized and that the system is designed to handle the increased power dissipation and heat generation.
The recommended input fuse rating for the IV0509SA is 5A slow-blow or 3A fast-acting. However, the actual fuse rating may vary depending on the specific application and system requirements. It's recommended to consult with XP Power's application engineers for specific guidance on input fuse selection.
IV0509SA datasheet
by XP Power
